User:Tessderosa/sandbox

Vibration Theory

Premise: There is only 1 Fundamental Force in the Universe and it is Vibration.

Cause: The vacuum of the empty universe exerts a 3 dimensional pulling force on an object due to the density difference between the object and the empty Universe.

This force creates a tension that causes vibration.

Scenario S:

Two objects exist in a vacuum and are both vibrating at rate X. This vibration sends out energy waves at rate sin(x).

In the vacuum with no interference or reflection these energy waves will perfectly amplify each other to a rate of 2sin(x). Since the other side

of the object is still vibrating at sin(x) there will be a general motion toward the 2sin(x) side.

In this specific case there will be the greatest force between the two objects and this interaction is known as the "Strong Force"

Scenario G:

Two objects exist in a vacuum and one is vibrating at rate sin(x) while the other is vibrating at rate sin(y). Where sin(x) + sin(y) is closer to 2

In this case the force between the 2 objects will be related to sin(x) + sin(y) which will definitely be smaller than 2sin(x) and will vary based on the values of x and y.

Scenario W:

Two objects exist in a vacuum and one is vibrating at rate sin(x) while the other is vibrating at rate -sin(x).

In this case the force between the 2 objects will be related to sin(x) - sin(x) which will be lower than the rate on the other side of the objects.

This will push the objects apart rather than pull them together at rate 2sin(x).

In this specific case there will be the greatest force pushing the two objects and it is known as the "Weak Force"

Scenario E:

Two objects exist in a vacuum and one is vibrating at rate sin(x) while the other is vibrating at rate sin(z). Where sin(x) + sin(z) is closer to 0

In this case the force between the 2 objects will be related to sin(x) + sin(z) which will be smaller than sin(x) or sin(z), but greater than 0.

This will have a lesser pushing apart affect than Scenario W.

In this Theory the object being pulled on is a quark and I believe that its vibration rate is causing its speed to actually be close to 2 or 3 times the speed of light. Vibration

is not the same as movement and I believe 3 dimensional vibration at the speed of light in each direction can in fact surpass the speed of light which is why

it appears that there are multiple Quarks inside each Neutron when in fact I believe there is only 1.

I believe it is likely that electrons vibrate at the perfect opposite rate of protons, but are still within resonance of Neutrons which is why they are both attracted to

and repelled from the neucleus of an atom. It may be that they resonate with protons and repel from Neutrons as well, but I think it is more likely that Neutrons are

the "most attractive" particles.

The Math is likely not accurate, but I think it's close enough for explaining the theory. Also I could be mistaken about which one pulls and which one pushes, but based on empirical observation of neutron behavior I think It is correct as is.